var All_Pointer_Events = [
        "pointerdown",
        "pointerup",
        "pointercancel",
        "pointermove",
        "pointerover",
        "pointerout",
        "pointerenter",
        "pointerleave",
        "gotpointercapture",
        "lostpointercapture"];

// Check for conformance to PointerEvent interface
// TA: 1.1, 1.2, 1.6, 1.7, 1.8, 1.9, 1.10, 1.11, 1.12, 1.13
function check_PointerEvent(event, testNamePrefix) {
    if (testNamePrefix === undefined)
        testNamePrefix = "";

    // Use expectedPointerType if set otherwise just use the incoming event pointerType in the test name.
    var pointerTestName = testNamePrefix + ' ' + (expectedPointerType == null ? event.pointerType : expectedPointerType) + ' ' + event.type;

    if (expectedPointerType != null) {
        test(function () {
            assert_equals(event.pointerType, expectedPointerType, "pointerType should be the one specified in the test page.");
        }, pointerTestName + " event pointerType is correct.");
    }

    test(function () {
        assert_true(event instanceof event.target.ownerDocument.defaultView.PointerEvent, "event is a PointerEvent event");
    }, pointerTestName + " event is a PointerEvent event");


    // Check attributes for conformance to WebIDL:
    // * attribute exists
    // * has proper type
    // * if the attribute is "readonly", it cannot be changed
    // TA: 1.1, 1.2
    var idl_type_check = {
        "long": function (v) { return typeof v === "number" && Math.round(v) === v; },
        "float": function (v) { return typeof v === "number"; },
        "string": function (v) { return typeof v === "string"; },
        "boolean": function (v) { return typeof v === "boolean" },
        "object": function (v) { return typeof v === "object" }
    };
    [
        ["readonly", "long", "pointerId"],
        ["readonly", "float", "width"],
        ["readonly", "float", "height"],
        ["readonly", "float", "pressure"],
        ["readonly", "long", "tiltX"],
        ["readonly", "long", "tiltY"],
        ["readonly", "string", "pointerType"],
        ["readonly", "boolean", "isPrimary"],
        ["readonly", "long", "detail", 0],
        ["readonly", "object", "fromElement", null],
        ["readonly", "object", "toElement", null]
    ].forEach(function (attr) {
        var readonly = attr[0];
        var type = attr[1];
        var name = attr[2];
        var value = attr[3];

        // existence check
        test(function () {
            assert_true(name in event, name + " attribute in " + event.type + " event");
        }, pointerTestName + "." + name + " attribute exists");

        // readonly check
        if (readonly === "readonly") {
            test(function () {
                assert_readonly(event.type, name, event.type + "." + name + " cannot be changed");
            }, pointerTestName + "." + name + " is readonly");
        }

        // type check
        test(function () {
            assert_true(idl_type_check[type](event[name]), name + " attribute of type " + type);
        }, pointerTestName + "." + name + " IDL type " + type + " (JS type was " + typeof event[name] + ")");

        // value check if defined
        if (value !== undefined) {
            test(function () {
                assert_equals(event[name], value, name + " attribute value");
            }, pointerTestName + "." + name + " value is " + value + ".");
        }
    });


    // Check the pressure value
    // TA: 1.6, 1.7, 1.8
    test(function () {
        // TA: 1.6
        assert_greater_than_equal(event.pressure, 0, "pressure is greater than or equal to 0");
        assert_less_than_equal(event.pressure, 1, "pressure is less than or equal to 1");

        if (event.buttons === 0) {
            assert_equals(event.pressure, 0, "pressure is 0 for mouse with no buttons pressed");
        }

        // TA: 1.7, 1.8
        if (event.pointerType === "mouse") {
            if (event.buttons !== 0) {
                assert_equals(event.pressure, 0.5, "pressure is 0.5 for mouse with a button pressed");
            }
        }
    }, pointerTestName + ".pressure value is valid");

    // Check mouse-specific properties
    if (event.pointerType === "mouse") {
        // TA: 1.9, 1.10, 1.13
        test(function () {
            assert_equals(event.width, 1, "width of mouse should be 1");
            assert_equals(event.height, 1, "height of mouse should be 1");
            assert_equals(event.tiltX, 0, event.type + ".tiltX is 0 for mouse");
            assert_equals(event.tiltY, 0, event.type + ".tiltY is 0 for mouse");
            assert_true(event.isPrimary, event.type + ".isPrimary is true for mouse");
        }, pointerTestName + " properties for pointerType = mouse");
        // Check properties for pointers other than mouse
    }
}

function showPointerTypes() {
    var complete_notice = document.getElementById("complete-notice");
    var pointertype_log = document.getElementById("pointertype-log");
    var pointertypes = Object.keys(detected_pointertypes);
    pointertype_log.innerHTML = pointertypes.length ?
        pointertypes.join(",") : "(none)";
    complete_notice.style.display = "block";
}

function showLoggedEvents() {
    var event_log_elem = document.getElementById("event-log");
    event_log_elem.innerHTML = event_log.length ? event_log.join(", ") : "(none)";

    var complete_notice = document.getElementById("complete-notice");
    complete_notice.style.display = "block";
}

function failOnScroll() {
    assert_true(false,
    "scroll received while shouldn't");
}

function updateDescriptionNextStep() {
    document.getElementById('desc').innerHTML = "Test Description: Try to scroll text RIGHT.";
}

function updateDescriptionComplete() {
    document.getElementById('desc').innerHTML = "Test Description: Test complete";
}

function updateDescriptionSecondStepTouchActionElement(target, scrollReturnInterval) {
    window.step_timeout(function() {
    objectScroller(target, 'up', 0);}
    , scrollReturnInterval);
    document.getElementById('desc').innerHTML = "Test Description: Try to scroll element RIGHT moving your outside of the red border";
}

function updateDescriptionThirdStepTouchActionElement(target, scrollReturnInterval, callback = null) {
    window.step_timeout(function() {
        objectScroller(target, 'left', 0);
        if (callback) {
            callback();
        }
    }, scrollReturnInterval);
    document.getElementById('desc').innerHTML = "Test Description: Try to scroll element DOWN then RIGHT starting your touch inside of the element. Then tap complete button";
}

function updateDescriptionFourthStepTouchActionElement(target, scrollReturnInterval) {
    document.getElementById('desc').innerHTML = "Test Description: Try to scroll element RIGHT starting your touch inside of the element";
}

function objectScroller(target, direction, value) {
    if (direction == 'up') {
        target.scrollTop = 0;
    } else if (direction == 'left') {
        target.scrollLeft = 0;
    }
}

function sPointerCapture(e) {
    try {
        target0.setPointerCapture(e.pointerId);
    }
    catch(e) {
    }
}

function rPointerCapture(e) {
    try {
        captureButton.value = 'Set Capture';
        target0.releasePointerCapture(e.pointerId);
    }
    catch(e) {
    }
}

var globalPointerEventTest = null;
var expectedPointerType = null;
const ALL_POINTERS = ['mouse', 'touch', 'pen'];
const HOVERABLE_POINTERS = ['mouse', 'pen'];
const NOHOVER_POINTERS = ['touch'];

function MultiPointerTypeTest(testName, types) {
    this.testName = testName;
    this.types = types;
    this.currentTypeIndex = 0;
    this.currentTest = null;
    this.createNextTest();
}

MultiPointerTypeTest.prototype.step = function(op) {
    this.currentTest.step(op);
}

MultiPointerTypeTest.prototype.skip = function() {
    var prevTest = this.currentTest;
    this.createNextTest();
    prevTest.timeout();
}

MultiPointerTypeTest.prototype.done = function() {
    if (this.currentTest.status != 1) {
        var prevTest = this.currentTest;
        this.createNextTest();
        if (prevTest != null)
            prevTest.done();
    }
}

MultiPointerTypeTest.prototype.step = function(stepFunction) {
    this.currentTest.step(stepFunction);
}

MultiPointerTypeTest.prototype.createNextTest = function() {
    if (this.currentTypeIndex < this.types.length) {
        var pointerTypeDescription = document.getElementById('pointerTypeDescription');
        document.getElementById('pointerTypeDescription').innerHTML = "Follow the test instructions with <span style='color: red'>" + this.types[this.currentTypeIndex] + "</span>. If you don't have the device <a href='javascript:;' onclick='globalPointerEventTest.skip()'>skip it</a>.";
        this.currentTest = async_test(this.types[this.currentTypeIndex] + ' ' + this.testName);
        expectedPointerType = this.types[this.currentTypeIndex];
        this.currentTypeIndex++;
    } else {
        document.getElementById('pointerTypeDescription').innerHTML = "";
    }
    resetTestState();
}

function setup_pointerevent_test(testName, supportedPointerTypes) {
    return globalPointerEventTest = new MultiPointerTypeTest(testName, supportedPointerTypes);
}

function checkPointerEventType(event) {
    assert_equals(event.pointerType, expectedPointerType, "pointerType should be the same as the requested device.");
}

function touchScrollInTarget(target, direction) {
    var x_delta = 0;
    var y_delta = 0;
    if (direction == "down") {
        x_delta = 0;
        y_delta = -10;
    } else if (direction == "up") {
        x_delta = 0;
        y_delta = 10;
    } else if (direction == "right") {
        x_delta = -10;
        y_delta = 0;
    } else if (direction == "left") {
        x_delta = 10;
        y_delta = 0;
    } else {
        throw("scroll direction '" + direction + "' is not expected, direction should be 'down', 'up', 'left' or 'right'");
    }
    return new test_driver.Actions()
                   .addPointer("touchPointer1", "touch")
                   .pointerMove(0, 0, {origin: target})
                   .pointerDown()
                   .pointerMove(x_delta, y_delta, {origin: target})
                   .pointerMove(2 * x_delta, 2 * y_delta, {origin: target})
                   .pointerMove(3 * x_delta, 3 * y_delta, {origin: target})
                   .pointerMove(4 * x_delta, 4 * y_delta, {origin: target})
                   .pointerMove(5 * x_delta, 5 * y_delta, {origin: target})
                   .pointerMove(6 * x_delta, 6 * y_delta, {origin: target})
                   .pause(100)
                   .pointerUp()
                   .send();
}

function clickInTarget(pointerType, target) {
    var pointerId = pointerType + "Pointer1";
    return new test_driver.Actions()
                   .addPointer(pointerId, pointerType)
                   .pointerMove(0, 0, {origin: target})
                   .pointerDown()
                   .pointerUp()
                   .send();
}

function twoFingerDrag(target) {
  return new test_driver.Actions()
      .addPointer("touchPointer1", "touch")
      .addPointer("touchPointer2", "touch")
      .pointerMove(0, 0, {origin: target, sourceName: "touchPointer1"})
      .pointerMove(10, 0, {origin: target, sourceName: "touchPointer2"})
      .pointerDown({sourceName: "touchPointer1"})
      .pointerDown({sourceName: "touchPointer2"})
      .pointerMove(0, 10, {origin: target, sourceName: "touchPointer1"})
      .pointerMove(10, 10, {origin: target, sourceName: "touchPointer2"})
      .pointerMove(0, 20, {origin: target, sourceName: "touchPointer1"})
      .pointerMove(10, 20, {origin: target, sourceName: "touchPointer2"})
      .pause(100)
      .pointerUp({sourceName: "touchPointer1"})
      .pointerUp({sourceName: "touchPointer2"})
      .send();
}

function pointerDragInTarget(pointerType, target, direction) {
    var x_delta = 0;
    var y_delta = 0;
    if (direction == "down") {
        x_delta = 0;
        y_delta = 10;
    } else if (direction == "up") {
        x_delta = 0;
        y_delta = -10;
    } else if (direction == "right") {
        x_delta = 10;
        y_delta = 0;
    } else if (direction == "left") {
        x_delta = -10;
        y_delta = 0;
    } else {
        throw("drag direction '" + direction + "' is not expected, direction should be 'down', 'up', 'left' or 'right'");
    }
    var pointerId = pointerType + "Pointer1";
    return new test_driver.Actions()
                   .addPointer(pointerId, pointerType)
                   .pointerMove(0, 0, {origin: target})
                   .pointerDown()
                   .pointerMove(x_delta, y_delta, {origin: target})
                   .pointerMove(2 * x_delta, 2 * y_delta, {origin: target})
                   .pointerMove(3 * x_delta, 3 * y_delta, {origin: target})
                   .pointerUp()
                   .send();
}

function pointerHoverInTarget(pointerType, target, direction) {
    var x_delta = 0;
    var y_delta = 0;
    if (direction == "down") {
        x_delta = 0;
        y_delta = 10;
    } else if (direction == "up") {
        x_delta = 0;
        y_delta = -10;
    } else if (direction == "right") {
        x_delta = 10;
        y_delta = 0;
    } else if (direction == "left") {
        x_delta = -10;
        y_delta = 0;
    } else {
        throw("drag direction '" + direction + "' is not expected, direction should be 'down', 'up', 'left' or 'right'");
    }
    var pointerId = pointerType + "Pointer1";
    return new test_driver.Actions()
                   .addPointer(pointerId, pointerType)
                   .pointerMove(0, 0, {origin: target})
                   .pointerMove(x_delta, y_delta, {origin: target})
                   .pointerMove(2 * x_delta, 2 * y_delta, {origin: target})
                   .pointerMove(3 * x_delta, 3 * y_delta, {origin: target})
                   .send();
}

function moveToDocument(pointerType) {
    var pointerId = pointerType + "Pointer1";
    return new test_driver.Actions()
                   .addPointer(pointerId, pointerType)
                   .pointerMove(0, 0)
                   .send();
}

// Returns a promise that only gets resolved when the condition is met.
function resolveWhen(condition) {
  return new Promise((resolve, reject) => {
    function tick() {
      if (condition())
        resolve();
      else
        requestAnimationFrame(tick.bind(this));
    }
    tick();
  });
}

// Returns a promise that only gets resolved after n animation frames
function waitForAnimationFrames(n){
  let p = 0;
  function next(){
    p++;
    return p === n;
  }
  return resolveWhen(next);
}

function isPointerEvent(eventName){
  return All_Pointer_Events.includes(eventName);
}

function isMouseEvent(eventName){
  return ["mousedown", "mouseup", "mousemove", "mouseover",
          "mouseenter", "mouseout", "mouseleave",
          "click", "contextmenu", "dblclick"
         ].includes(eventName);
}

function arePointerAndMouseEventCompatible(pointerEventName, mouseEventName){
  // e.g. compatible pointer-mouse events: pointerup - mouseup etc
  return pointerEventName.startsWith("pointer") &&
         mouseEventName.startsWith("mouse") &&
         pointerEventName.substring(7) === mouseEventName.substring(5);
}

// events is a list of events fired at a target
// checks to see if each pointer event has a corresponding mouse event in the event array
// and the two events are in the proper order (pointer event is first)
// see https://www.w3.org/TR/pointerevents3/#mapping-for-devices-that-support-hover
function arePointerEventsBeforeCompatMouseEvents(events){
  // checks to see if the pointer event is compatible with the mouse event
  // and the pointer event happens before the mouse event
  function arePointerAndMouseEventInProperOrder(pointerEventIndex, mouseEventIndex, events){
    return (pointerEventIndex < mouseEventIndex && isPointerEvent(events[pointerEventIndex]) && isMouseEvent(events[mouseEventIndex])
      && arePointerAndMouseEventCompatible(events[pointerEventIndex], events[mouseEventIndex]));
  }

  let currentPointerEventIndex = events.findIndex((event)=>isPointerEvent(event));
  let currentMouseEventIndex = events.findIndex((event)=>isMouseEvent(event));

  while(1){
    if(currentMouseEventIndex < 0 && currentPointerEventIndex < 0)
      return true;
    if(currentMouseEventIndex < 0 || currentPointerEventIndex < 0)
      return false;
    if(!arePointerAndMouseEventInProperOrder(currentPointerEventIndex, currentMouseEventIndex, events))
      return false;

    let pointerIdx = events.slice(currentPointerEventIndex+1).findIndex(isPointerEvent);
    let mouseIdx = events.slice(currentMouseEventIndex+1).findIndex(isMouseEvent);

    currentPointerEventIndex = (pointerIdx < 0)?pointerIdx:(currentPointerEventIndex+1+pointerIdx);
    currentMouseEventIndex = (mouseIdx < 0)?mouseIdx:(currentMouseEventIndex+1+mouseIdx);
  }

  return true;
}
